Detail Information for SPSED0015006

Accession Number SPSED0015006
Secreted Protein L-Asparaginase
Uniprot Accession Number O34482
GenBank Accession Number BAA22230.1
Source Organism of the Secreted Protein Bacillus subtilis 168
Nucleotide Sequence of the Secreted Protein Length = 1128 nt
ATGAAAAAACAACGAATGCTCGTACTTTTTACCGCACTATTGTTTGTTTTTACCGGATGTTCACATTCTCCTGAAACAAAAGAATCCCCGAAAGAAAAAGCTCAGACACAAAAAGTCTCTTCGGCTTCTGCCTCTGAAAAAAAGGATCTGCCAAACATTAGAATTTTAGCGACAGGAGGCACGATAGCTGGTGCCGATCAATCGAAAACCTCAACAACTGAATATAAAGCAGGTGTTGTCGGCGTTGAATCACTGATCGAGGCAGTTCCAGAAATGAAGGACATTGCAAACGTCAGCGGCGAGCAGATTGTTAACGTCGGCAGCACAAATATTGATAATAAAATATTGCTGAAGCTGGCGAAACGCATCAACCACTTGCTCGCTTCAGATGATGTAGACGGAATCGTCGTGACTCATGGAACAGATACATTGGAGGAAACCGCTTATTTTTTGAATCTTACCGTGAAAAGTGATAAACCGGTTGTTATTGTCGGTTCGATGAGACCTTCCACAGCCATCAGCGCTGATGGGCCTTCTAACCTGTACAATGCAGTGAAAGTGGCAGGTGCCCCTGAGGCAAAAGGGAAAGGGACGCTTGTTGTTCTTAACGACCGGATTGCCTCAGCCCGATATGTCACCAAAACAAACACAACTACAACAGATACATTTAAATCAGAAGAAATGGGCTTCGTCGGAACAATTGCAGATGATATCTATTTTAATAATGAGATTACCCGTAAGCATACGAAGGACACGGATTTCTCGGTTTCTAATCTTGATGAGCTGCCGCAGGTTGACATTATCTATGGATACCAAAATGACGGAAGCTACCTGTTTGACGCTGCTGTAAAAGCCGGAGCAAAGGGGATTGTATTTGCCGGTTCTGGGAACGGGTCTTTATCTGATGCAGCCGAAAAAGGGGCGGACAGCGCAGTCAAAAAAGGCGTTACAGTGGTGCGCTCTACCCGCACGGGAAATGGTGTCGTCACACCAAACCAAGACTATGCGGAAAAGGACTTGCTGGCATCGAACTCTTTAAACCCCCAAAAAGCACGGATGTTGCTGATGCTTGCGCTTACCAAAACAAATGATCCTCAAAAAATCCAAGCTTATTTCAATGAGTATTGA
Amino Acid Sequence of the Secreted Protein Length = 375 aa
MKKQRMLVLFTALLFVFTGCSHSPETKESPKEKAQTQKVSSASASEKKDLPNIRILATGGTIAGADQSKTSTTEYKAGVVGVESLIEAVPEMKDIANVSGEQIVNVGSTNIDNKILLKLAKRINHLLASDDVDGIVVTHGTDTLEETAYFLNLTVKSDKPVVIVGSMRPSTAISADGPSNLYNAVKVAGAPEAKGKGTLVVLNDRIASARYVTKTNTTTTDTFKSEEMGFVGTIADDIYFNNEITRKHTKDTDFSVSNLDELPQVDIIYGYQNDGSYLFDAAVKAGAKGIVFAGSGNGSLSDAAEKGADSAVKKGVTVVRSTRTGNGVVTPNQDYAEKDLLASNSLNPQKARMLLMLALTKTNDPQKIQAYFNEY
Expression Host Bacillus subtilis WB600

Source Organism of the Signal Peptide Bacillus subtilis
Source Gene of the Signal Peptide wapA
Signal Peptide Sequence Length = 28 aa
MKKRKRRNFKRFIAAFLVLALMISLVPA
Type Tat
Yield 14.81 (U/mL)
Performance (Current Yield / Highest Yield) 0.46
Charge 8
Charge (N-Region) 8
Hydrophobicity 0.45
Hydrophobicity Plot
Hydrophobicity (H-region) 2.89
Signal Peptide Original Protein Sequence MKKRKRRNFKRFIAAFLVLALMISLVPADVLAKSTEEENGNRIAADDPEETLQKEQTEEAVPFDPKDINKEGEITSERTENTKLYYEGDGVYKQEVYLDPIHTKETPDADWEDISPELKESTSKQVETENAILNSDFQKQMKNGLYATFEHNDHKVTYSLAEAKGPNKTSLTPKDTSADYKTDSNEIVYPDVFPNIDLQTFTFNENIKEDLVLHQYNGYNTFTFQLKTDLQAKEQEDGSIDFSDEKGKVVFSVPKPFMTDSKLDELSGEVERSDKVSYKLEKNEEGYLLHLTADENWLKDPERVYPVSIDPSTSLSVSSDTFVMSAYPTTNYSASSQKWDANLKAYVLKTGYYDKTTGTNYAFMKFNNLKPIQNMTVTKATLKTYVAHSYYGTKATGLWLDTVNSNYDNAKVTWNTKPASKNIGKADVHKGQWASYDVTAAVKSWNSGGANYGFKLHTNGNGKEYWKKLISSANSANKPYIEVTYTIPKGNTPTIKAYHNGDSTGYFDISWKKVEGAKGYKVWIYNGKEYQAISAGNVTSWSTKGKKIWPTSAEIASKRYKLHLDGKDGAELALDPSPVYKNSGGSYATSKNYWIGVSAIFDQGEGAMSAPAKPVIPNVGKAQAPSAKGYNNGNATGYFDLSWKAVSGATGYKVQVFNGKGFETLDLGNQTSWTTKGKKIWPTSAEIKAGKYALHLKDGSGAELPINPGPTYKNAGGDGAKRNYSFKIIAYNKDGEAIASPAATPALPDIARPKNVTGYLYTNTKSSQTGYVNLIWEKVQNAKGYKVNIYNGKEYQSFDVGDADHWTTQNKNIWPTSEEIKAGSYKLHTDGKGGELALDPSPVYNNANGNYKGKKNYSFTLVAYDANGETIPTAPFNPTFHEGAEFLGTEEYWSIIDIPSGQLNGATGNVIVNEEDLSIDGRGPGLGLSRTYNSLDSSDHLFGQGWYADAETSVISTDGGAMYIDEDATTHRFTKKADGTYQPPTGVYLELTETADQFILKTKDQTNAYFNKKGGKLQKVVDGHNNATVYTYNDKNQLTAITDASGRKLTFTYDENGHVTSITGPKNKKVTYSYENDLLKKVTDTDGTVTSYDYDSEGRLVKQYSANSTEAKPVFTEYQYSGHRLEKAINAKKETYVYSYDADKKTLLMTQPNGRKVQYGYNEAGNPIQVIDDAEGLKITTNTKYEGNNVVEDVDPNDVGTGKATESYQYDKDGNVTSVKDAYGTETYEYNKNNDVTKMKDTEGNVTDIAYDGLDAVSETDQSGKSSSAAVYDKYGNQIQSSKDLSASTNILKDGSFEAQKSGWNLTASKDSGKISVIADKSGVLSGSKALEVLSQSTSAGTDHGYSSATQTVELEPNTTYTLSGKIKTDLAKSRAYFNIDLRDKDQKRIQWIHNEYSALAGKNDWTKRQITFTTPANAGKAVVYMEVDHKDKDGKGKAWFDEVQLEKGEVSSSYNPVQNSSFTSATENWNVSGASVDSEEGFNDDVSLKAARTSASQAGSVTKQTVVLGQSANDKPVYLTLTGMSKASSVKFTDEKDYSLQANVTYADGSTGIYNAKFPSGTQEWNRAAVVIPKTKPINKVDISILFQKSATGTVWFDDIRLIEGSLLTKSTYDSNGNYVTKEEDELGYATSTDYDETGKKTSETDAKGEKTTYTYDQADQLTNMTLSNGTSILHSYDKEGNEVSKTIRAGADQTYKFEYDVMGKLVKTTDPLGNVLASEYDANSNLTKTISPNGNEVSLSYDGTDRVKSKSYNGTEKYIFTYDKNGNETSVVNKEQNTTKKRTFDNKNRLTELTDRGGSQTWTYPSDSDKLKTFSWIHGDQKGTNQFTYNKLDQMIEMKDSTSSYSFDYDENGNVQTFITGNGGGTSFSYDERNLVSSLHIGDKNGGDILTESYEYDANGNRTTINSSASGKVQYEYGKLNQLVKETHEDGTVIEYTYDGFGNRKTVTTIKDGSSKTVNASFNIMNQLTKVNDESISYDKNGNRTSDGKFTYTWDAEDNLTAVTKKGEDKPFATYKYDEKGNRIQKTVNGKVTNYFYDGDSLNVLYETDADNNVTKSYTYGDSGQLLSYTENGKKYFYHYNAHGDIIAISDSTGKTVAKYQYDAWGNPTKTEASDEVKDNRYRYAGYQYDEETGLYYLMARYYEPRNGVFLSLDPDPGSDGDSLDQNGYAYGNNNPVMNVDPDGHWVWLVVNAGFAAYDGYKAYKSGKGWKGAAWAAASNFGPGKIFKGASRAYKFTKKAVKITGHTRHGLNQSIGRNGGRGVNLRAKLNAVRSPKKVIKQPNGATKYVGKKATVVLNKRGKVITAYGSSRAKGSKHVFHTHGKGNKSKRRR
Signal Peptide Original DNA Sequence ATGAAAAAAAGAAAGAGGCGAAACTTTAAAAGGTTCATTGCAGCATTTTTAGTGTTGGCTTTAATGATTTCATTAGTGCCAGCCGATGTACTAGCAAAATCTACAGAAGAAGAGAATGGAAACCGTATTGCTGCCGATGATCCAGAAGAAACTCTTCAGAAAGAACAAACTGAGGAAGCTGTACCTTTTGATCCAAAAGATATAAACAAAGAGGGTGAGATCACCTCTGAAAGAACAGAAAATACAAAACTCTATTATGAAGGTGACGGTGTCTATAAACAGGAAGTATACCTTGATCCTATTCATACAAAGGAAACACCGGATGCCGACTGGGAAGACATTTCTCCTGAGTTAAAAGAGTCGACAAGCAAACAAGTCGAGACAGAGAACGCTATTTTGAATTCAGATTTTCAAAAGCAAATGAAGAACGGGCTTTATGCGACTTTTGAGCATAATGACCATAAGGTTACATATTCACTAGCAGAAGCGAAAGGCCCGAATAAAACTTCACTTACTCCGAAAGATACCTCAGCAGATTATAAGACTGACAGTAATGAGATTGTGTATCCGGATGTGTTTCCGAATATTGATCTTCAGACTTTCACATTCAATGAAAACATAAAAGAAGATTTAGTCCTTCATCAGTATAATGGATACAACACATTTACATTTCAGTTAAAAACCGATTTGCAGGCTAAAGAACAAGAGGATGGATCCATTGATTTTTCTGATGAAAAAGGAAAAGTTGTTTTTTCTGTGCCTAAGCCTTTTATGACGGATTCAAAACTAGATGAGCTTTCCGGCGAGGTTGAACGGTCAGACAAAGTCAGCTATAAGCTGGAAAAGAATGAAGAAGGGTATTTGCTTCATCTTACGGCAGACGAGAACTGGCTGAAAGACCCAGAACGCGTATATCCAGTATCTATCGACCCGTCAACTTCTTTATCTGTTTCATCGGATACGTTTGTCATGAGTGCCTACCCGACGACGAACTATTCGGCCTCCTCACAAAAATGGGATGCTAATTTAAAGGCCTATGTACTGAAAACGGGCTATTATGACAAAACAACAGGCACAAACTATGCGTTCATGAAATTTAACAACCTAAAGCCAATTCAAAATATGACTGTCACTAAAGCTACATTAAAAACATACGTAGCCCATTCCTATTATGGAACAAAGGCAACCGGCCTTTGGCTGGATACGGTCAACAGCAATTATGATAATGCAAAAGTGACATGGAACACCAAACCGGCATCTAAAAATATCGGAAAAGCCGACGTCCATAAAGGACAGTGGGCGAGTTATGATGTGACCGCTGCTGTAAAGTCATGGAACTCCGGCGGGGCCAACTATGGATTTAAGCTTCATACAAACGGAAACGGCAAGGAATATTGGAAAAAACTAATTTCTTCAGCGAACTCCGCCAATAAACCATATATTGAAGTGACGTATACCATTCCAAAGGGAAACACACCTACAATCAAAGCCTATCACAACGGCGATTCCACTGGTTATTTCGATATCAGCTGGAAAAAGGTTGAAGGCGCAAAAGGATATAAGGTATGGATTTACAATGGTAAGGAATATCAAGCGATTTCTGCAGGCAACGTCACGTCGTGGAGCACAAAAGGTAAAAAAATCTGGCCTACGAGCGCAGAAATTGCCTCCAAGAGATATAAACTGCATCTGGACGGCAAGGATGGAGCTGAATTGGCATTAGATCCATCCCCGGTCTATAAGAATTCCGGCGGAAGCTATGCTACAAGCAAAAACTATTGGATTGGCGTCAGTGCGATATTTGACCAAGGTGAAGGAGCGATGTCCGCACCGGCAAAGCCCGTTATCCCTAATGTAGGAAAAGCACAAGCACCGTCAGCAAAGGGCTACAATAATGGGAATGCCACAGGATACTTCGACCTTTCTTGGAAAGCTGTATCCGGTGCAACCGGCTATAAGGTTCAGGTGTTCAATGGGAAAGGCTTTGAGACACTTGATCTCGGAAATCAGACGTCTTGGACCACAAAAGGGAAAAAGATCTGGCCGACAAGTGCAGAAATCAAGGCGGGAAAATATGCTCTTCACCTAAAGGACGGAAGCGGAGCAGAGCTGCCGATCAATCCCGGACCAACCTATAAAAACGCCGGGGGAGATGGAGCCAAAAGAAATTACTCGTTTAAAATTATCGCATACAACAAAGACGGCGAAGCCATTGCATCCCCGGCTGCTACCCCGGCACTTCCTGATATCGCTAGGCCAAAGAATGTAACTGGCTATTTGTATACAAATACAAAATCGAGTCAAACGGGTTATGTGAATTTGATATGGGAAAAGGTTCAAAATGCGAAGGGCTATAAAGTTAACATTTACAACGGTAAAGAATATCAGTCCTTTGATGTTGGTGATGCTGATCATTGGACAACCCAAAATAAAAACATCTGGCCGACTTCTGAGGAAATCAAAGCCGGAAGCTATAAGCTTCATACAGATGGAAAAGGCGGGGAATTAGCCCTCGATCCATCACCTGTCTATAACAATGCAAATGGGAATTACAAAGGGAAGAAGAATTATTCTTTCACGCTTGTCGCCTATGATGCGAATGGTGAAACGATTCCAACGGCGCCCTTTAACCCAACGTTCCATGAAGGCGCAGAATTCCTAGGTACAGAAGAGTACTGGTCTATCATTGATATCCCAAGCGGCCAGTTAAATGGTGCGACAGGCAATGTCATTGTGAATGAAGAAGATTTGTCAATTGATGGACGCGGTCCGGGACTTGGCTTATCGAGAACCTACAACAGTCTTGACAGCTCTGATCACTTATTTGGACAAGGCTGGTATGCTGATGCAGAAACATCTGTCATCTCAACGGATGGCGGGGCAATGTATATCGATGAAGACGCTACGACACATCGATTCACGAAAAAAGCCGATGGCACGTATCAGCCGCCGACCGGTGTATATCTTGAATTAACAGAAACAGCTGATCAGTTCATATTAAAAACAAAGGATCAAACCAACGCTTATTTCAATAAAAAAGGCGGCAAACTCCAAAAGGTAGTGGATGGCCATAACAATGCAACTGTCTATACTTACAATGACAAAAATCAACTGACCGCCATTACAGATGCATCAGGCCGCAAGCTTACATTTACCTATGATGAAAACGGCCATGTGACGTCCATCACAGGACCTAAGAATAAGAAAGTCACCTACTCATATGAGAATGATTTGCTGAAGAAGGTTACAGATACAGACGGGACTGTCACAAGCTATGACTACGATAGTGAAGGGCGCCTTGTCAAACAATATTCAGCTAACAGTACCGAAGCAAAGCCTGTCTTTACCGAATATCAGTATAGCGGTCACCGTCTCGAAAAAGCGATCAACGCTAAAAAAGAAACATATGTCTACAGCTATGATGCTGATAAAAAGACGCTTCTCATGACACAGCCAAATGGCCGGAAAGTACAGTATGGCTATAATGAAGCGGGAAATCCGATTCAGGTCATTGATGATGCGGAAGGGTTAAAAATTACAACGAATACAAAGTATGAAGGCAACAATGTTGTAGAAGATGTAGATCCAAATGACGTCGGCACCGGAAAAGCAACGGAAAGCTATCAATATGACAAAGATGGCAACGTTACGTCGGTTAAAGATGCATATGGAACTGAGACATACGAATACAACAAAAACAACGATGTCACAAAGATGAAGGATACCGAGGGCAATGTCACGGATATTGCTTATGACGGACTGGATGCTGTATCCGAAACCGATCAGAGCGGAAAATCATCGTCAGCAGCTGTTTATGATAAATATGGAAACCAGATTCAATCGAGCAAAGATTTATCAGCTTCAACTAATATTTTGAAAGATGGAAGCTTTGAAGCTCAAAAATCCGGCTGGAATCTGACTGCCTCTAAAGACAGCGGCAAAATTTCAGTCATCGCCGATAAAAGCGGAGTTCTTTCCGGATCAAAGGCATTGGAGGTCTTGAGCCAATCAACGTCTGCCGGAACAGATCATGGGTATTCGTCAGCAACACAAACAGTTGAGCTGGAGCCGAATACAACCTATACATTAAGCGGGAAAATCAAAACAGATCTTGCGAAATCAAGAGCCTATTTTAACATTGATTTGCGAGACAAAGATCAAAAACGAATTCAATGGATTCACAATGAATACAGTGCATTAGCCGGAAAAAATGACTGGACAAAACGGCAAATCACTTTTACGACTCCAGCGAATGCAGGCAAAGCTGTTGTGTATATGGAAGTCGATCATAAAGATAAAGATGGCAAAGGAAAAGCATGGTTTGATGAAGTCCAGCTGGAAAAAGGCGAAGTATCATCAAGCTATAACCCAGTTCAAAACAGCAGCTTCACATCAGCAACGGAAAACTGGAATGTAAGCGGAGCATCCGTTGATTCTGAAGAAGGCTTTAATGATGATGTATCATTAAAAGCTGCCCGGACCAGTGCGTCCCAAGCCGGATCAGTAACAAAACAAACCGTTGTCTTAGGGCAAAGCGCAAATGACAAACCGGTTTATCTCACACTGACAGGAATGTCGAAAGCAAGCAGCGTCAAATTTACAGATGAAAAAGACTATTCTCTGCAGGCGAATGTCACTTACGCTGACGGCAGCACAGGCATCTACAATGCGAAATTCCCTTCTGGAACACAGGAATGGAACCGAGCAGCTGTCGTCATCCCTAAAACAAAGCCGATCAATAAAGTCGATATCAGTATTCTGTTCCAAAAGAGTGCGACAGGCACAGTCTGGTTTGATGATATCCGTTTGATTGAAGGAAGCCTTCTGACTAAAAGCACGTATGACAGTAATGGCAACTATGTGACCAAGGAAGAGGACGAACTAGGTTACGCCACTTCAACTGATTACGATGAAACTGGTAAGAAAACGTCTGAAACAGATGCAAAAGGTGAAAAAACAACCTATACGTATGATCAGGCAGACCAATTGACAAACATGACGCTCTCTAACGGCACGTCTATCCTTCACAGCTATGATAAGGAAGGCAATGAGGTAAGCAAAACCATCCGGGCAGGAGCAGATCAAACCTATAAATTCGAATATGATGTCATGGGCAAGCTTGTCAAAACAACTGACCCTCTCGGCAATGTGTTAGCAAGCGAATATGATGCCAACAGCAACCTGACCAAAACCATTTCACCAAATGGCAACGAAGTGTCTCTTTCTTATGATGGAACAGACCGGGTGAAATCAAAGTCGTATAACGGTACAGAAAAGTACATTTTCACGTATGACAAAAATGGAAATGAAACGTCGGTCGTCAATAAAGAGCAGAACACCACAAAGAAACGGACATTTGACAACAAAAACCGTTTAACCGAACTGACAGACCGCGGCGGCAGCCAAACTTGGACATATCCTAGTGACTCCGATAAGCTGAAAACCTTCTCGTGGATTCATGGGGACCAAAAAGGAACGAATCAATTTACGTATAACAAGCTGGATCAAATGATTGAGATGAAAGACAGTACATCCTCATATTCATTTGATTATGATGAAAATGGAAACGTCCAAACCTTTATTACGGGCAACGGCGGCGGAACAAGTTTTTCATATGACGAAAGAAACCTTGTAAGCTCGCTGCATATCGGTGACAAAAACGGCGGAGACATTCTGACGGAAAGCTATGAATATGATGCCAACGGCAACCGCACAACGATAAACAGCTCAGCAAGCGGCAAGGTGCAATATGAGTATGGGAAGCTGAATCAGCTTGTCAAAGAAACCCATGAAGACGGTACTGTTATTGAATACACATATGATGGATTCGGAAACCGGAAAACCGTTACAACTATAAAAGACGGCTCAAGCAAAACGGTGAACGCTTCCTTCAACATCATGAACCAGCTGACAAAAGTCAATGATGAAAGCATCTCTTACGATAAAAACGGCAACCGCACATCCGACGGCAAATTCACATATACGTGGGATGCAGAAGATAACCTGACCGCCGTTACCAAAAAAGGCGAAGACAAGCCATTCGCAACATATAAGTATGACGAAAAAGGAAACAGAATCCAAAAAACCGTCAACGGAAAAGTCACGAACTACTTCTACGACGGAGACAGCTTGAACGTCTTGTATGAAACAGACGCGGACAACAACGTCACAAAATCATACACGTACGGAGACAGCGGCCAGCTGTTATCCTACACAGAAAATGGTAAGAAATATTTCTATCACTACAACGCTCACGGCGACATCATCGCGATCTCAGACAGCACTGGAAAAACCGTTGCCAAGTATCAATACGACGCATGGGGAAATCCAACAAAAACCGAAGCAAGCGACGAAGTAAAAGACAATCGCTACCGCTACGCAGGCTACCAATACGACGAAGAAACCGGCCTGTACTATCTCATGGCCCGCTACTACGAGCCAAGAAACGGCGTGTTCCTATCGCTCGACCCAGACCCGGGCAGCGACGGAGATTCATTGGATCAGAATGGGTATGCTTATGGAAATAATAACCCAGTGATGAATGTTGATCCGGACGGGCATTGGGTATGGCTTGTGGTAAATGCCGGATTTGCAGCCTATGATGGATATAAGGCATATAAATCAGGTAAAGGATGGAAAGGTGCTGCTTGGGCAGCTGCTTCTAATTTTGGTCCTGGGAAGATATTTAAGGGTGCTAGTCGCGCCTATAAGTTTACGAAGAAGGCAGTTAAAATCACAGGTCATACAAGACATGGACTTAATCAATCTATAGGAAGAAATGGAGGCCGTGGAGTCAATTTAAGGGCCAAACTGAATGCTGTGCGAAGCCCTAAAAAAGTAATAAAACAACCTAATGGGGCAACGAAATATGTTGGAAAAAAAGCTACAGTTGTTTTAAATAAAAGGGGTAAAGTAATCACAGCTTATGGAAGTTCAAGAGCTAAGGGTTCTAAACACGTATTCCATACACACGGAAAAGGAAATAAATCTAAGAGAAGGCGTTAA
Reference Xuan Chen.Study on the expression and fermentation optimization of L-asparaginase in Bacillus subtilis WB600[D]. Jiangnan University, 2015. (in Chinese)
Miscellaneous -